Abstract

Deleted in liver cancer 1 (DLC1) is a multidomain Rho-GTPase-activating protein (RhoGAP) and a tumor suppressor in several human common cancers. DLC1's structure predicts its interaction with a number of other proteins with various cellular functions. Previously we have shown that S100A10 (also known as p11), a key plasminogen receptor on the surface of cell membrane, colocalizes and binds with DLC1 in cell cytoplasm. The binding sites were mapped to the central domain of the DLC1 and at the end of C-terminus of S100A10. The same terminus is also a binding site for Annexin A2, which is believed to regulate availability of extracellular S100A10 and, therefore, dynamics of plasmin formation. Now we demonstrate that DLC1 competes with Annexin A2 for interaction with S100A10. DLC1 binding to S100A10 did not affect DLC1's RhoGAP activity but did reduce availability of S100A10 for binding by Annexin A2. Furthermore, the expression of DLC1 also affected S100A10 expression in a dose dependent manner, and increased S100A10 ubiquitin-dependent degradation. All of the above interactions attenuated plasminogen activation and resulted in inhibition of in vitro cell migration, invasion, colony formation and anchorage independent growth of aggressive and tumorigenic lung tumor cells. Transduction of DLC1-negative breast tumor cells significantly reduced the ability of tumor cells to form pulmonary metastases as well as inhibited distant dissemination of liver tumor cells in athymic mice. Current observations provide a plausible mechanism for DLC1 antimetastatic function by negatively affecting plasminogen activation, which in turn lead to a significant reduction in invasiveness of tumor cells.